Your search keyword '"Dichomitus squalens"' showing total 50 results

1. Transcriptional response of the white-rot fungus Dichomitus squalens to polysaccharides reveals a co-expression network of plant biomass conversion related genes

Author

Victor M. Gonzalez Ramos, Astrid Mueller, Mao Peng, Megan Pawlowski, Anna Lipzen, Vivian Ng, Vasanth Singan, Mei Wang, Ronald P. de Vries, Igor V. Grigoriev, Joanna E. Kowalczyk, and Miia R. Mäkelä

Subjects

Transcriptome, Co-expression analysis, Basidiomycetes, Dichomitus squalens, Plant polysaccharides, Biotechnology, TP248.13-248.65

Abstract

Wood-degrading white-rot fungi can efficiently degrade all plant biomass components, but the molecular mechanisms behind the degradation of plant polysaccharides remain poorly understood. For example, the gene sets and expression levels induced by the plant polysaccharide-derived monosaccharides in white-rot fungi do not reflect those induced by crude plant biomass substrates. To explore the molecular response of the white-rot fungus Dichomitus squalens to plant-derived oligo- and polysaccharides, we investigated the transcriptomes from mono- and dikaryotic strains of the fungus on 10 substrates and compared the expression of carbohydrate-active enzyme-encoding genes to that previously reported for different monosaccharides and cellobiose. Our results revealed that in D. squalens, a robust response to cellulose leads to its effective depolymerization, with an orthologue of the ascomycete Trichoderma reesei ACE3 likely acting as a central transcriptional regulator. The conserved response between cellulose and cellobiose further confirms cellobiose as the main cellulase inducer in D. squalens. Surprisingly, despite low abundance of pectin in the natural wood substrate of D. squalens, we identified polygalacturonic acid as a major inducer of a broad-targeted pectinolytic response including pectinase, pectin-related sugar transporter and catabolism genes, and four fungal specific transcription factors. This indicates that D. squalens has not only maintained its ability to degrade minor polysaccharide components in its biotope, but also a regulatory system spanning from extracellular degradation to metabolic conversion. Our study contributes to a deeper understanding of the molecular mechanisms behind white-rot fungal plant polysaccharide degradation and provides leads for functional studies of potential transcriptional regulators in basidiomycetes.

Published

2024

2. The White-Rot Basidiomycete Dichomitus squalens Shows Highly Specific Transcriptional Response to Lignocellulose-Related Aromatic Compounds

Author

Kowalczyk, Joanna E, Peng, Mao, Pawlowski, Megan, Lipzen, Anna, Ng, Vivian, Singan, Vasanth, Wang, Mei, Grigoriev, Igor V, and Mäkelä, Miia R

Subjects

Biological Sciences, Industrial Biotechnology, transcriptome, gene expression, basidiomycete, Dichomitus squalens, aromatic compounds, lignocellulose, lignin, platform chemicals, Other Biological Sciences, Biomedical Engineering, Medical Biotechnology, Industrial biotechnology, Medical biotechnology, Biomedical engineering

Abstract

Lignocellulosic plant biomass is an important feedstock for bio-based economy. In particular, it is an abundant renewable source of aromatic compounds, which are present as part of lignin, as side-groups of xylan and pectin, and in other forms, such as tannins. As filamentous fungi are the main organisms that modify and degrade lignocellulose, they have developed a versatile metabolism to convert the aromatic compounds that are toxic at relatively low concentrations to less toxic ones. During this process, fungi form metabolites some of which represent high-value platform chemicals or important chemical building blocks, such as benzoic, vanillic, and protocatechuic acid. Especially basidiomycete white-rot fungi with unique ability to degrade the recalcitrant lignin polymer are expected to perform highly efficient enzymatic conversions of aromatic compounds, thus having huge potential for biotechnological exploitation. However, the aromatic metabolism of basidiomycete fungi is poorly studied and knowledge on them is based on the combined results of studies in variety of species, leaving the overall picture in each organism unclear. Dichomitus squalens is an efficiently wood-degrading white-rot basidiomycete that produces a diverse set of extracellular enzymes targeted for lignocellulose degradation, including oxidative enzymes that act on lignin. Our recent study showed that several intra- and extracellular aromatic compounds were produced when D. squalens was cultivated on spruce wood, indicating also versatile aromatic metabolic abilities for this species. In order to provide the first molecular level systematic insight into the conversion of plant biomass derived aromatic compounds by basidiomycete fungi, we analyzed the transcriptomes of D. squalens when grown with 10 different lignocellulose-related aromatic monomers. Significant differences for example with respect to the expression of lignocellulose degradation related genes, but also putative genes encoding transporters and catabolic pathway genes were observed between the cultivations supplemented with the different aromatic compounds. The results demonstrate that the transcriptional response of D. squalens is highly dependent on the specific aromatic compounds present suggesting that instead of a common regulatory system, fine-tuned regulation is needed for aromatic metabolism.

Published

2019

3. Application of CRISPR/Cas9 Tools for Genome Editing in the White-Rot Fungus Dichomitus squalens

Author

Joanna E. Kowalczyk, Shreya Saha, and Miia R. Mäkelä

Subjects

Dichomitus squalens, CRISPR/Cas9, genome editing, ribonucleoprotein, single-stranded oligonucleotides, Microbiology, QR1-502

Abstract

Dichomitus squalens is an emerging reference species that can be used to investigate white-rot fungal plant biomass degradation, as it has flexible physiology to utilize different types of biomass as sources of carbon and energy. Recent comparative (post-) genomic studies on D. squalens resulted in an increasingly detailed knowledge of the genes and enzymes involved in the lignocellulose breakdown in this fungus and showed a complex transcriptional response in the presence of lignocellulose-derived compounds. To fully utilize this increasing amount of data, efficient and reliable genetic manipulation tools are needed, e.g., to characterize the function of certain proteins in vivo and facilitate the construction of strains with enhanced lignocellulolytic capabilities. However, precise genome alterations are often very difficult in wild-type basidiomycetes partially due to extremely low frequencies of homology directed recombination (HDR) and limited availability of selectable markers. To overcome these obstacles, we assessed various Cas9-single guide RNA (sgRNA) ribonucleoprotein (RNP) -based strategies for selectable homology and non-homologous end joining (NHEJ) -based gene editing in D. squalens. We also showed an induction of HDR-based genetic modifications by using single-stranded oligodeoxynucleotides (ssODNs) in a basidiomycete fungus for the first time. This paper provides directions for the application of targeted CRISPR/Cas9-based genome editing in D. squalens and other wild-type (basidiomycete) fungi.

Published

2021

4. The White-Rot Basidiomycete Dichomitus squalens Shows Highly Specific Transcriptional Response to Lignocellulose-Related Aromatic Compounds

Author

Joanna E. Kowalczyk, Mao Peng, Megan Pawlowski, Anna Lipzen, Vivian Ng, Vasanth Singan, Mei Wang, Igor V. Grigoriev, and Miia R. Mäkelä

Subjects

transcriptome, gene expression, basidiomycete, Dichomitus squalens, aromatic compounds, lignocellulose, Biotechnology, TP248.13-248.65

Abstract

Lignocellulosic plant biomass is an important feedstock for bio-based economy. In particular, it is an abundant renewable source of aromatic compounds, which are present as part of lignin, as side-groups of xylan and pectin, and in other forms, such as tannins. As filamentous fungi are the main organisms that modify and degrade lignocellulose, they have developed a versatile metabolism to convert the aromatic compounds that are toxic at relatively low concentrations to less toxic ones. During this process, fungi form metabolites some of which represent high-value platform chemicals or important chemical building blocks, such as benzoic, vanillic, and protocatechuic acid. Especially basidiomycete white-rot fungi with unique ability to degrade the recalcitrant lignin polymer are expected to perform highly efficient enzymatic conversions of aromatic compounds, thus having huge potential for biotechnological exploitation. However, the aromatic metabolism of basidiomycete fungi is poorly studied and knowledge on them is based on the combined results of studies in variety of species, leaving the overall picture in each organism unclear. Dichomitus squalens is an efficiently wood-degrading white-rot basidiomycete that produces a diverse set of extracellular enzymes targeted for lignocellulose degradation, including oxidative enzymes that act on lignin. Our recent study showed that several intra- and extracellular aromatic compounds were produced when D. squalens was cultivated on spruce wood, indicating also versatile aromatic metabolic abilities for this species. In order to provide the first molecular level systematic insight into the conversion of plant biomass derived aromatic compounds by basidiomycete fungi, we analyzed the transcriptomes of D. squalens when grown with 10 different lignocellulose-related aromatic monomers. Significant differences for example with respect to the expression of lignocellulose degradation related genes, but also putative genes encoding transporters and catabolic pathway genes were observed between the cultivations supplemented with the different aromatic compounds. The results demonstrate that the transcriptional response of D. squalens is highly dependent on the specific aromatic compounds present suggesting that instead of a common regulatory system, fine-tuned regulation is needed for aromatic metabolism.

Published

2019

5. Transcriptome analysis of differential gene expression in Dichomitus squalens during interspecific mycelial interactions and the potential link with laccase induction.

Author

Zhong, Zixuan, Li, Nannan, He, Binghui, Igarashi, Yasuo, and Luo, Feng

Abstract

Interspecific mycelial interactions between white rot fungi are always accompanied by an increased production of laccase. In this study, the potential of the white rot fungus Dichomitus squalens to enhance laccase production during interactions with two other white rot fungi, Trametes versicolor or Pleurotus ostreatus, was assessed. To probe the mechanism of laccase induction and the role that laccase plays during combative interaction, we analyzed the differential gene expression profile of the laccase induction response to stressful conditions during fungal interaction. We further confirmed the expression patterns of 16 selected genes by qRT-PCR analysis. We noted that many differentially expressed genes (DEGs) encoded proteins that were involved in xenobiotic detoxification and reactive oxygen species (ROS) generation or reduction, including aldo/keto reductase, glutathione S-transferases, cytochrome P450 enzymes, alcohol oxidases and dehydrogenase, manganese peroxidase and laccase. Furthermore, many DEG-encoded proteins were involved in antagonistic mechanisms of nutrient acquisition and antifungal properties, including glycoside hydrolase, glucanase, chitinase and terpenoid synthases. DEG analyses effectively revealed that laccase induction was likely caused by protective responses to oxidative stress and nutrient competition during interspecific fungal interactions. [ABSTRACT FROM AUTHOR]

Published

2019

6. Agrobacterium tumefaciens-mediated transformation of the white-rot fungus Dichomitus squalens.

Author

Li, Jing, Wu, Min, Igarashi, Yasuo, Luo, Feng, and Chang, Peng

Subjects

*AGROBACTERIUM tumefaciens, *PLANT genetic transformation, *GENE expression, *AGROBACTERIUM, *EXTRACELLULAR enzymes, *GENE fusion, *TRANSGENES

Abstract

Dichomitus squalens is an efficient white-rot fungus that generates a wide range of extracellular enzymes to degrade lignocellulose in nature. Although a protoplast-mediated transformation method for D. squalens has been developed, the transformation efficiency remains low. Here, we established a highly efficient Agrobacterium tumefaciens -mediated transformation (ATMT) procedure for D. squalens by transferring a binary vector harboring the neomycin phosphotransferase II (nptII) resistance gene fused with DsRed-Express2 , under the control of the native glyceraldehyde-3-phosphate dehydrogenase (GPD) gene promoter. Key factors affecting the efficiency of transformation were tested. A. tumefaciens EHA105 strain with a cell density of 0.4 OD 600nm and 96 h co-cultivation resulted in the highest transformation efficiency, with an average of 98 ± 11 transformants per co-cultivation plate. Besides, the strong expression of DsRed-Express2 indicates the effectiveness of the DsGPD promoter in driving gene expression in D. squalens. This ATMT system of D. squalens would be beneficial for its molecular genetic studies. • Establishment and optimization of the Agrobacterium tumefaciens –mediated transformation method for Dichomitus squalens. • An average of 98 ± 11 transformants per co-cultivation plate was obtained. • Homologous promoter of DsGPD efficiently drives the expression of the nptII - DsRed Express2 fusion gene. • Transgenes were expressed stably in D. squalens. [ABSTRACT FROM AUTHOR]

Published

2023

7. First Report of Six Macrofungi from Daecheongdo and Socheongdo Islands, Korea

Author

Minkyeong Kim, Jae Young Park, Changmu Kim, and Jin Sung Lee

Subjects

biology, Ecology, Botany, biology.organism_classification, Microbiology, Indigenous, Dichomitus squalens, Infectious Diseases, Species level, Fungal Diversity, socheongdo, Melanoleuca, QK1-989, macrofungal flora, Period (geology), daecheongdo, Ecosystem, unrecorded species, indigenous species, Crepidotus, Research Articles, Research Article

Abstract

Daecheongdo and Socheongdo Islands are located in the West Sea of Korea, 210 km away from land, and are military border areas very close to North Korea, making them difficult to access. Although the ecosystem of the islands is relatively well preserved due to the lack of accessibility, research on fungi of the regions is insufficient. Therefore, we aimed to investigate indigenous fungi in these geographically and geopolitically constrained regions. A survey of the indigenous fungal diversity of the islands was conducted in 2018. All specimens were identified at the species level based on morphological and molecular analyses. Among them, six macrofungi—namely, Agaricus menieri, Crepidotus praecipuus, Dichomitus squalens, Hortiboletus amygdalinus, Melanoleuca friesii, and Trametes lactinea—were not previously reported in Korea. Considering that the proportion of unrecorded species is high in the survey area and period as well as the number of samples collected, similar research on adjacent islands may be necessary.

Published

2021

8. Genetic transformation of the white-rot fungus Dichomitus squalens using a new commercial protoplasting cocktail.

Author

Daly, Paul, Slaghek, Gillian G., Casado López, Sara, Wiebenga, Ad, Hilden, Kristiina S., de Vries, Ronald P., and Mäkelä, Miia R.

Subjects

*GENETIC transformation, *LIGNOCELLULOSE biodegradation, *BASIDIOMYCETES, *DRUG resistance, *MICROBIOLOGICAL techniques, *PHOSPHOTRANSFERASES, *FUNGI

Abstract

D . squalens , a white-rot fungus that efficiently degrades lignocellulose in nature, can be used in various biotechnological applications and has several strains with sequenced and annotated genomes. Here we present a method for the transformation of this basidiomycete fungus, using a recently introduced commercial ascomycete protoplasting enzyme cocktail, Protoplast F. In protoplasting of D . squalens mycelia, Protoplast F outperformed two other cocktails while releasing similar amounts of protoplasts to a third cocktail. The protoplasts released using Protoplast F had a regeneration rate of 12.5% (± 6 SE). Using Protoplast F, the D . squalens monokaryon CBS464.89 was conferred with resistance to the antibiotics hygromycin and G418 via polyethylene glycol mediated protoplast transformation with resistance cassettes expressing the hygromycin phosphotransferase ( hph ) and neomycin phosphotransferase ( nptII ) genes, respectively. The hph gene was expressed in D . squalens using heterologous promoters from genes encoding β-tubulin or glyceraldehyde 3-phosphate dehydrogenase. A Southern blot confirmed integration of a resistance cassette into the D . squalens genome. An average of six transformants (± 2 SE) were obtained when at least several million protoplasts were used (a transformation efficiency of 0.8 (± 0.3 SE) transformants per μg DNA). Transformation of D . squalens demonstrates the suitability of the Protoplast F cocktail for basidiomycete transformation and furthermore can facilitate understanding of basidiomycete gene function and development of improved strains for biotechnological applications. [ABSTRACT FROM AUTHOR]

Published

2017

9. Application of CRISPR/Cas9 Tools for Genome Editing in the White-Rot Fungus Dichomitus squalens

Author

Kowalczyk, Saha, and Mäkelä

Subjects

Dichomitus squalens, genome editing, single-stranded oligonucleotides, CRISPR/Cas9, ribonucleoprotein

Abstract

Dichomitus squalens is an emerging reference species that can be used to investigate white-rot fungal plant biomass degradation, as it has flexible physiology to utilize different types of biomass as sources of carbon and energy. Recent comparative (post-) genomic studies on D. squalens resulted in an increasingly detailed knowledge of the genes and enzymes involved in the lignocellulose breakdown in this fungus and showed a complex transcriptional response in the presence of lignocellulose-derived compounds. To fully utilize this increasing amount of data, efficient and reliable genetic manipulation tools are needed, e.g., to characterize the function of certain proteins in vivo and facilitate the construction of strains with enhanced lignocellulolytic capabilities. However, precise genome alterations are often very difficult in wild-type basidiomycetes partially due to extremely low frequencies of homology directed recombination (HDR) and limited availability of selectable markers. To overcome these obstacles, we assessed various Cas9-single guide RNA (sgRNA) ribonucleoprotein (RNP) -based strategies for selectable homology and non-homologous end joining (NHEJ) -based gene editing in D. squalens. We also showed an induction of HDR-based genetic modifications by using single-stranded oligodeoxynucleotides (ssODNs) in a basidiomycete fungus for the first time. This paper provides directions for the application of targeted CRISPR/Cas9-based genome editing in D. squalens and other wild-type (basidiomycete) fungi.

Published

2021

10. Biological incising of lodgepole pine and white spruce lumber with Dichomitus squalens

Author

Adnan Uzunovic, Rod Stirling, Angela Dale, Paul Symons, and Paul I. Morris

Subjects

040101 forestry, 0106 biological sciences, Preservative, Materials science, Forestry, 04 agricultural and veterinary sciences, Penetration (firestop), Strength loss, Pulp and paper industry, 01 natural sciences, Inoculation methods, Dichomitus squalens, 010608 biotechnology, Optimum growth, Fungal colonization, 0401 agriculture, forestry, and fisheries, General Materials Science, Application methods

Abstract

Deep penetration into wood is necessary for wood preservatives to provide long-term durability and for some wood modification agents to enhance wood properties. Bioincising was investigated as a means to enhance chemical penetration. Candidate fungi were screened for bioincising on pine and spruce samples. Dichomitus squalens dramatically improved wood permeability. Full preservative penetration was reached in spruce samples exposed to D. squalens isolate 78A for 6 weeks. No loss in compression stiffness was detected in small-scale bioincised samples. Optimum growth conditions, inoculation methods, and the practicality of bioincising were investigated on full size lumber. The optimal temperature for bioincising with D. squalens was around 30 °C. Bioincising was most effective using grain or liquid inoculum. Using liquid inoculum, spruce samples exposed for 6 weeks reached an average penetration of 10 mm through the heartwood face and 22 mm through the edge; and using grain inoculum average penetration was 10 mm through the heartwood face and 25 mm through the edge. On full-size lumber, bioincising was highly variable. Less than 50% of the bioincised samples achieved a minimum preservative uptake of 200 kg/m3. However, samples that met a minimum uptake of 200 kg/m3 of preservative and achieved 5 mm penetration on both edge and heartwood faces were within an acceptable range for strength loss, comparable to mechanical incising. The biggest barrier to commercialization of bioincising is the difficulty in achieving consistent fungal colonization of commercial size wood using a simple application method and the high variability in success.

Published

2019

11. Uporaba različnih metod za čiščenje tekstilnih odpadnih vod

Author

Polak, Lucija and Kalčikova, Gabriela

Subjects

textile wastewater, koagulacija, Fentonova oksidacija, biodegradability, Fenton oxidation, biorazgradljivost, tekstilna odpadna voda, coagulation, Dichomitus squalens

Abstract

Okolje dnevno onesnažujejo odpadne vode iz različnih industrij. Odpadne vode iz tekstilne industrije so problematične predvsem zato, ker vsebujejo kompleksne in težko biorazgradljive snovi. V okviru magistrskega dela smo preverjali učinkovitost čiščenja izbrane tekstilne odpadne vode z različnimi biološkimi, kemijskimi in fizikalno-kemijskimi metodami. V prvi fazi smo preizkusili možnost biološkega čiščenja, ki predstavlja najboljšo rešitev. Pri tem smo ugotovili, da izbrana odpadna voda ni biološko razgradljiva in je ne moremo očistiti s konvencionalnim postopkom biološkega čiščenja. Uporaba nekonvencionalnega biološkega čiščenja z glivo Dichomitus squalens in njenimi encimi je bila bolj učinkovita kot konvencionalno biološko čiščenje. Glavni mehanizem odstranjevanja onesnaževal je bila adsorpcija na glivno biomaso. Kot primerni rešitvi sta se izkazala procesa koagulacije in Fentonove oksidacije. S prvim smo dosegli 70-odstotno učinkovitost glede na zmanjšanje vrednosti TOC, z drugim pa 61-odstotno. Za dosego boljših rezultatov bi bila potrebna nadaljnja optimizacija obeh procesov. The environment is polluted by wastewaters from various industries. Wastewaters from the textile industry are problematic mainly because they contain complex and non-readily biodegradable substances. In this master’s thesis, we assessed the efficiency of different biological, chemical and physicochemical methods in the treatment of textile wastewater. In the first phase, we evaluated the efficiency of biological treatment, which represents the best option. We determined that the conventional biological treatment was not efficient due to the low biodegradability of the wastewater. However, we decided to also carry out the unconventional biological treatment, using the fungus Dichomitus squalens and its enzymes. It demonstrated greater efficiency than the conventional biological treatment. The main removal mechanism seems to be the adsorption of pollutants on fungal biomass. Coagulation and Fenton oxidation proved to be appropriate solutions. After coagulation, 70% of TOC was removed, while Fenton oxidation removed 61% of TOC. To obtain better results, further optimization of both processes is required.

Published

2021

12. Extracellular breakdown of lignocellulosic biomass by Dichomitus squalens: peroxidation-based platform and homeostatic regulation.

Author

Bak, Jin

Subjects

FUNGI, BIODEGRADATION, BIOMASS, SQUALENE, GENETIC regulation, HYDROLASES

Abstract

Dichomitus squalens, a wood-rotting fungus, can utilize recalcitrant biomass for growth; however, the extracellular metabolic processes involved are not well understood. A systematic target analysis of D. squalens has been carried out using optimized conditions for lignocellulolysis. Seven encoded proteins and 58 metabolites that consistently exhibited altered regulation patterns were identified. The predicted regulators were then vertically combined into a comprehensive network that included entire signaling pathways involved in D. squalens. Despite the diversity of these pathways, they showed complementary cooperation among themselves, ensuring the efficiency of active biodegradation and thereby yielding energy saving for the cells. Although several hydrolytic enzymes (e.g., polysaccharide-degrading enzymes, α/β-hydrolase, and peroxidases) were systematically utilized, peroxidative controllers (e.g., glyoxal oxidase and P450-oxidoreductase) were rarely generated. [ABSTRACT FROM AUTHOR]

Published

2015

13. An improved and reproducible protocol for the extraction of high quality fungal RNA from plant biomass substrates.

Author

Patyshakuliyeva, Aleksandrina, Mäkelä, Miia R., Sietiö, Outi-Maaria, de Vries, Ronald P., and Hildén, Kristiina S.

Subjects

*PLANT biomass, *BIOCHEMICAL substrates, *FUNGAL genetics, *FUNGAL gene expression, *LIGNOCELLULOSE, *NUCLEIC acid isolation methods

Abstract

Isolation of high quantity and quality RNA is a crucial step in the detection of meaningful gene expression data. Obtaining intact fungal RNA from complex lignocellulosic substrates is often difficult, producing low integrity RNA which perform poorly in downstream applications. In this study we developed an RNA extraction method using CsCl centrifugation procedure, modified from previous reports and adapted for isolation of RNA from plant biomass. This method provided high level of integrity and good quantity of RNA which were suitable for reliable analyses of gene expression and produced consistent and reproducible results. [ABSTRACT FROM AUTHOR]

Published

2014

14. Transcriptional analysis of selected cellulose-acting enzymes encoding genes of the white-rot fungus Dichomitus squalens on spruce wood and microcrystalline cellulose.

Author

Rytioja, Johanna, Hildén, Kristiina, Hatakka, Annele, and Mäkelä, Miia R.

Subjects

*GENETIC transcription, *CELLULOSE, *GENETIC code, *FUNGAL gene expression, *MONOOXYGENASES, *POLYSACCHARIDES, *FUNGI

Abstract

The recent discovery of oxidative cellulose degradation enhancing enzymes has considerably changed the traditional concept of hydrolytic cellulose degradation. The relative expression levels of ten cellulose-acting enzyme encoding genes of the white-rot fungus Dichomitus squalens were studied on solid-state spruce wood and in microcrystalline Avicel cellulose cultures. From the cellobiohydrolase encoding genes, cel7c was detected at the highest level and showed constitutive expression whereas variable transcript levels were detected for cel7a , cel7b and cel6 in the course of four-week spruce cultivation. The cellulolytic enzyme activities detected in the liquid cultures were consistent with the transcript levels. Interestingly, the selected lytic polysaccharide monooxygenase (LPMO) encoding genes were expressed in both cultures, but showed different transcription patterns on wood compared to those in submerged microcrystalline cellulose cultures. On spruce wood, higher transcript levels were detected for the lpmo s carrying cellulose binding module (CBM) than for the lpmo s without CBMs. In both cultures, the expression levels of the lpmo genes were generally higher than the levels of cellobiose dehydrogenase (CDH) encoding genes. Based on the results of this work, the oxidative cellulose cleaving enzymes of D. squalens have essential role in cellulose degrading machinery of the fungus. [ABSTRACT FROM AUTHOR]

Published

2014

15. Biodegradation of chestnut shell and lignin-modifying enzymes production by the white-rot fungi Dichomitus squalens, Phlebia radiata.

Author

Dong, Ya-Chen, Dai, Yi-Ning, Xu, Teng-Yang, Cai, Jin, and Chen, Qi-He

Abstract

As a discarded lignocellulosic biomass, chestnut shell is of great potential economic value, thus a sustainable strategy is needed and valuable for utilization of this resource. Herein, the feasibility of biological processes of chestnut shell with Dichomitus squalens, Phlebia radiata and their co-cultivation for lignin-modifying enzymes (LMEs) production and biodegradation of this lignocellulosic biomass was investigated under submerged cultivation. The treatment with D. squalens alone at 12 days gained the highest laccase activity (9.42 ± 0.73 U mg). Combined with the data of laccase and manganese peroxidase, oxalate and HO were found to participate in chestnut shell degradation, accompanied by a rapid consumption of reducing sugar. Furthermore, specific surface area of chestnut shell was increased by 77.6-114.1 % with the selected fungi, and total pore volume was improved by 90.2 % with D. squalens. Meanwhile, the surface morphology was observably modified by this fungus. Overall, D. squalens was considered as a suitable fungus for degradation of chestnut shell and laccase production. The presence of LMEs, HO and oxalate provided more understanding for decomposition of chestnut shell by the white-rot fungi. [ABSTRACT FROM AUTHOR]

Published

2014

16. The use of the fungus Dichomitus squalens for degradation in rotating biological contactor conditions

Author

Novotný, Čeněk, Trošt, Nina, Šušla, Martin, Svobodová, Kateřina, Mikesková, Hana, Válková, Hana, Malachová, Kateřina, and Pavko, Aleksander

Subjects

*SQUALENE, *BIODEGRADATION, *BIOFILMS, *LIGNOCELLULOSE, *MANGANESE peroxidase, *COLOR removal (Sewage purification), *WASTEWATER treatment, *POLYPORACEAE

Abstract

Abstract: Biodegradation potential of Dichomitus squalens in biofilm cultures and rotating biological contactor (RBC) was investigated. The fungus formed thick biofilms on inert and lignocellulosic supports and exhibited stable activities of laccase and manganese peroxidase to reach 40–62 and 25–32% decolorization of anthraquinone Remazol Brilliant Blue R and heterocyclic phthalocyanine dyes, respectively. The decolorization ceased when glucose concentration dropped to 1mmoll−1. In RBC reactor, respective decolorizations of Remazol Brilliant Blue R and heterocyclic Methylene Blue and Azure B dyes (50mgl−1) attained 99%, 93%, and 59% within 7, 40 and 200h. The fungus exhibited tolerance to coliform and non-coliform bacteria on rich organic media, the inhibition occurred only on media containing tryptone and NaCl. The degradation efficiency in RBC reactor, capability to decolorize a wide range of dye structures and tolerance to bacterial stress make D. squalens an organism applicable to remediation of textile wastewaters. [Copyright &y& Elsevier]

Published

2012

17. The synergistic effect on production of lignin-modifying enzymes through submerged co-cultivation of Phlebia radiata, Dichomitus squalens and Ceriporiopsis subvermispora using agricultural residues.

Author

Dong, Ya-Chen, Wang, Wei, Hu, Zhong-Ce, Fu, Ming-Liang, and Chen, Qi-He

Abstract

The lignin-modifying enzymes (LMEs) play an important role in decomposition of agricultural residues, which contain a certain amount of lignin. In this study, the production of LMEs by three co-cultivated combinations of Phlebia radiata, Dichomitus squalens and Ceriporiopsis subvermispora and the respective monocultures was comparatively investigated. Laccase and manganese peroxidases (MnP) were significantly promoted in the co-culture of P. radiata and D. squalens, and corncob was verified to be beneficial for laccase and MnP production. Moreover, laccase production by co-culture of P. radiata and D. squalens with high ratio of glucose to nitrogen was higher than low ratio under carbon- and nitrogen-meager conditions. New laccase isoenzymes measured by Native-PAGE were stimulated by co-cultured P. radiata with D. squalens or C. subvermispora, respectively, growing in the defined medium containing corncob, but the expression of laccase was greatly restrained by the co-culturing of D. squalens with C. subvermispora. This study showed that the synergistic and depressing effects of co-cultivation of P. radiata, D. squalens and C. subvermispora on LMEs were species specific. [ABSTRACT FROM AUTHOR]

Published

2012

18. Enhanced enzyme production with the pelleted form of D. squalens in laboratory bioreactors using added natural lignin inducer.

Author

Babič, Janja and Pavko, Aleksander

Subjects

*BIOREACTORS, *LIGNINS, *BASIDIOMYCETES, *BIOTECHNOLOGY, *FUNGAL enzymes, *PHANEROCHAETE, *TRAMETES (Polyporaceae)

Abstract

White-rot fungi are extensively used in various submerged biotechnology processes to produce ligninolytic enzymes. Transfer of the process from the laboratory to the industrial level requires optimization of the cultivation conditions on the laboratory scale. An interesting area of optimization is pellet growth since this morphological form solves problems such as the decreased oxygen concentration, limited heat, and nutrient transport, which usually occur in dispersed mycelium cultures. Many submerged fermentations with basidiomycetes in pellet form were done with Phanerochaete, Trametes, and Bjerkandera species, among others. In our study, another promising basidiomycete, D. squalens, was used for ligninolytic enzyme production. With the addition of wood particles (sawdust) as a natural inducer and optimization of mixing and aeration conditions in laboratory stirred tank (STR) and bubble column (BCR) reactors on pellet growth and morphology, the secretion of laccase and the manganese-dependent peroxidase into the medium was substantially enhanced. The maximum mean pellet radius was achieved after 10 days in the BCR (5.1 mm) where pellets were fluffy and 5 days in the STR (3.5 mm) where they were round and smooth. The maximum Lac activity (1,882 U l) was obtained after 12 days in the STR, while maximum MnP activity (449.8 U l) occurred after 18 days in the BCR. The pellet size and morphology depended on the agitation and aeration conditions and consequently influenced a particular enzyme synthesis. The enzyme activities were high and comparable with the activities found for other investigations in reactors with basidiomycetes in the form of pellets. [ABSTRACT FROM AUTHOR]

Published

2012

19. Inoculum carrier and contaminant bioavailability affect fungal degradation performances of PAH-contaminated solid matrices from a wood preservation plant

Author

Covino, Stefano, Svobodová, Kateřina, Čvančarová, Monika, D’Annibale, Alessandro, Petruccioli, Maurizio, Federici, Federico, Křesinová, Zdena, Galli, Emanuela, and Cajthaml, Tomáš

Subjects

*POLYCYCLIC aromatic hydrocarbons & the environment, *POLLUTANTS, *BIOAVAILABILITY, *BIODEGRADATION, *FUNGI, *WOOD preservatives, *WHEAT straw, *CORNCOBS, *WOOD pellets

Abstract

Abstract: The objective of the study was to investigate the impact of chopped wheat straw (CWS), ground corn cobs (GCC) and commercial pellets (CP), as inoculum carriers, on both growth and polycyclic aromatic hydrocarbons (PAH) degradation performances of Dichomitus squalens, Pleurotus ostreatus and Coprinus comatus. A historically-contaminated soil (HCS) and creosote-treated shavings (CTS) from the Soběslav wood preservation plant, characterized by different relative abundances of the PAH bioavailable fractions, were used to assess the contaminated matrix effect and its interaction with both carrier and fungal strain. In HCS, best results were obtained with CP-immobilized P. ostreatus, which was able to deplete benzo[a]anthracene, chrysene, benzo[b]fluoranthene (BbF), benzo[k]fluoranthene (BkF) and benzo[a]pyrene (BaP) by 69.1%, 29.7%, 39.7%, 32.8% and 85.2%, respectively. Only few high-molecular mass PAHs such as BbF, BkF and BaP were degraded beyond their respective bioavailable fractions and this effect was confined to a limited number of inoculants. In CTS, only phenanthrene degradation exceeded its respective bioavailability from 1.42 to 1.86-fold. Regardless of both inoculum carrier and fungal species, degradation was positively and significantly (P <0.001) correlated with bioavailability in fungal microcosms on HCS and CTS and such correlation was very similar in the two matrices ( equal to 0.60 and 0.59, respectively). The ability of white-rot fungi to degrade certain PAHs beyond their bioavailability was experimentally proven by this study. Although CTS and HCS considerably differed in their physico-chemical properties, PAH contents and contaminant aging, the relationship between degradation and bioavailability was not significantly affected by the type of matrix. [Copyright &y& Elsevier]

Published

2010

20. Induction of Ligninolytic Enzyme Production by Dichomitus squalens on Various Types of Immobilization Support.

Author

Pavko, Aleksander and Novotný, Čeněk

Subjects

*ENZYMES, *DYES & dyeing, *TEXTILE industry, *LACCASE, *PEROXIDASE, *NITROGEN

Abstract

The aim was to produce a mixture of ligninolytic enzymes for decolourisation of synthetic dyes typically present in textile industry wastewaters. White rot fungus Dichomitus squalens, capable of producing laccase (Lac) and manganese peroxidase (MnP) was used. A procedure for the enzyme production in stationary cultures was developed and optimized regarding the type of carbon source and addition of nitrogen to N-limited medium. Beech wood, pine wood and straw were used as inducers and immobilization support materials. Beech wood and straw were the best inducers and immobilization supports, while fructose stimulated the enzyme activities better than other sugars. An additional nitrogen source was beneficial to increase the enzyme activities in the culture medium. Higher Lac than MnP activities were determined in all cases. The obtained enzyme mixtures from the culture filtrate were tested to decolourize three structurally different dyes. The highest initial decolourisation rate was obtained with Remazol Brilliant Blue R. The decolourization efficiencies after 10 h were 62% for RBBR, 50% for Copper(II)phthalocyanine and 19% for Reactive Orange 16. [ABSTRACT FROM AUTHOR]

Published

2008

21. The implication of Dichomitus squalens laccase isoenzymes in dye decolorization by immobilized fungal cultures

Author

Šušla, Martin, Novotný, Čeněk, and Svobodová, Kateřina

Subjects

*ENZYMES, *PROTEINS, *CATALYSTS, *PINACEAE

Abstract

Abstract: The study focuses on the production of ligninolytic enzymes and dye degradation capacity of Dichomitus squalens immobilized on polyurethane foam (PUF) or pine wood (PW) in a fixed bed reactor at a laboratory scale (working volume of 0.6l). Immobilization of fungal cultures on pine wood improved eminently laccase production in comparison to the liquid cultures. Immobilized D. squalens was able to decolorize an anthraquinone dye Remazol Brilliant Blue R and an azo dye Reactive Orange 16, however, only a limited decolorization of Copper(II)phthalocyanine dye was observed in both types of reactor cultures. The involvement of a laccase activity in dye decolorization was suggested. Further, two different chromatographical forms of laccases, Lc1 and Lc2, were isolated from PW cultures of D. squalens using a fast, two step FPLC method. Enzymes revealed identical molecular masses of 68kDa (estimated by SDS-PAGE) and similar pI’s, however, they differed in their catalytic properties such as pH dependence of the activity and ABTS oxidation rates. In this study, we demonstrated different dye decolorization capacities of Lc1 and Lc2 as well. [Copyright &y& Elsevier]

Published

2007

22. Synthetic dye decolorization capacity of white rot fungus Dichomitus squalens

Author

Eichlerová, Ivana, Homolka, Ladislav, and Nerud, František

Subjects

*CHEMICAL plants, *FUNGI, *LACCASE, *HYDROGEN peroxide

Abstract

Abstract: The ability to decolorize eight chemically different synthetic dyes (Orange G, Amaranth, Orange I, Remazol Brilliant Blue R (RBBR), Cu-phthalocyanin, Poly R-478, Malachite Green and Crystal Violet) by the white rot fungus Dichomitus squalens was evaluated on agar plates. The fungus showed high decolorization capacity and was able to decolorize all dyes tested, but not to the same extent. Some of the dyes did not limit the decolorization capacity of the strain tested even at a concentration of 2g/l. The presence of the dyes in solid media reduced the mycelial growth rate of D. squalens; a positive correlation was found between the growth rate and the decolorization ability. Decolorization of Orange G and RBBR was studied also in liquid culture, where both dyes caused an enhancement of ligninolytic enzyme and overall hydrogen peroxide production and a decrease of biomass production. RBBR was removed to a higher extent than Orange G. [Copyright &y& Elsevier]

Published

2006

23. Biochemical Characterization of Recombinant Oxalate Decarboxylases of the White Rot Fungus Dichomitus squalens

Author

Miia R. Mäkelä, Outi-Maaria Sietiö, and Sari Kristiina Hilden

Subjects

Marketing, Pharmacology, Organizational Behavior and Human Resource Management, Strategy and Management, Pharmaceutical Science, Biology, Oxalate, Microbiology, law.invention, Dichomitus squalens, chemistry.chemical_compound, Biochemistry, chemistry, law, Drug Discovery, Recombinant DNA, White rot fungus

Published

2017

24. Functional diversity in Dichomitus squalens monokaryons

Author

Serena Manserra, Sara Casado López, Miia R. Mäkelä, Bart Theelen, Ronald P. de Vries, Johanna Rytioja, Tedros Yonatan Issak, Westerdijk Fungal Biodiversity Institute, Westerdijk Fungal Biodiversity Institute - Yeast Research, and Westerdijk Fungal Biodiversity Institute - Fungal Physiology

Subjects

0301 basic medicine, Genetics, AFLP, sexual reproduction, biology, 030106 microbiology, white-rot, Fungus, monokaryon, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Article, Sexual reproduction, Carbon utilization, Dichomitus squalens, carbon utilization, 03 medical and health sciences, Functional diversity, 030104 developmental biology, Mycology, Ecology, Evolution, Behavior and Systematics, Monokaryon, Dikaryon

Abstract

Dichomitus squalens is a white-rot fungus that colonizes and grows mainly on softwood and is commonly found in the northern parts of Europe, North America, and Asia. We analyzed the genetic and physiological diversity of eight D. squalens monokaryons derived from a single dikaryon. In addition, an unrelated dikaryon and a newly established dikaryon from two of the studied monokaryons were included. Both growth and lignocellulose acting enzyme profiles were highly variable between the studied monokaryotic and dikaryotic strains, demonstrating a high level of diversity within the species.

Published

2017

25. The Effect of Interaction Between White-rot Fungi and Indigenous Microorganisms on Degradation of Polycyclic Aromatic Hydrocarbons in Soil.

Author

in der Wiesche, C., Martens, R., and Zadrazil, F.

Subjects

WHITE rot (Onions), FUNGI, POLYCYCLIC aromatic hydrocarbons, SOIL microbiology, SOIL inoculation, BIOMINERALIZATION

Abstract

White-rot fungi applied for soil bioremediation have to compete with indigenous soil microorganisms. The effect of competition on both indigenous soil microflora and white-rot fungi was evaluated with regard to degradation of polycyclic aromatic hydrocarbons (PAH) with different persistence in soil. Sterile and non-sterile soil was artificially contaminated with 14C-labeled PAH consisting of three (anthracene), four (pyrene, benz[a]anthracene) and five fused aromatic rings (benzo[a]pyrene, dibenz[a,h]anthracene). The two fungi tested, Dichomitus squalens and Pleurotus ostreatus, produced similar amounts of ligninolytic enzymes in soil, but PAH mineralization by P. ostreatus was significantly higher. Compared to the indigenous soil microflora, P. ostreatus mineralized 5-ring PAH to a larger extent, while the indigenous microflora was superior in mineralizing 3-ring and 4-ring PAH. In coculture the special capabilities of both soil microflora and P. ostreatus were partly restricted due to antagonistic interactions, but essentially preserved. Thus, soil inoculation with P. ostreatus significantly increased the mineralization of high-molecular-weight PAH, and at the same time reduced the mineralization of anthracene and pyrene. Regarding the mineralization of low-molecular-weight PAH, the stimulation of indigenous soil microorganisms by straw amendment was more efficient than application of white-rot fungi. [ABSTRACT FROM AUTHOR]

Published

2003

26. Biodegradation Kinetics of Phenol, 2,4,6-Trichlorophenol and Pentachlorophenol with ligninolytic enzymes from Dichomitus Squalens

Author

Aleksander Pavko, Nastja Zupan, and Janja Babič

Subjects

040101 forestry, 021110 strategic, defence & security studies, Ligninolytic enzymes, 0211 other engineering and technologies, 04 agricultural and veterinary sciences, 02 engineering and technology, Pentachlorophenol, Biodegradation kinetics, Dichomitus squalens, chemistry.chemical_compound, chemistry, Environmental chemistry, 2,4,6-Trichlorophenol, 0401 agriculture, forestry, and fisheries, Phenol

Abstract

Biodegradation of phenol, 2,4,6-trichlorophenol and pentachlorophenol was investigated using Dichomitus squalens cultivation media filtrates with initial laccase and manganese peroxidase activities of 1000 U L-1 and 300 U L-1, respectively. Decomposition of all three biocides was studied at T = 28 °C, pH = 4.5 and initial concentrations around 6 mg L-1 and the kinetics evaluated on the basis of the time course of the biocide concentration data. Integral analysis revealed 1st order reaction for all three pollutants and the corresponding reaction rate constants and initial concentrations for phenol, 2,4,6-TCP and PCP were estimated from linearized experimental data. The rate equations obtained allow estimation of the times necessary for a particular biocide conversion. The toxicity of reactants and products to the bacterium Vibrio fischeri before and after 48-hours degradation showed that the products were less toxic than the reactants in all three cases. The initial solutions of the three toxic substances caused 54 - 62 % inhibition of the bacterium Vibrio fischeri, while after 48 hours of degradation, 57 % reduction in the toxicity of phenol, 50 % reduction of 2,4,6-TCP and 29 % reduction of PCP was achieved.

Published

2016

27. The White-Rot Basidiomycete Dichomitus squalens Shows Highly Specific Transcriptional Response to Lignocellulose-Related Aromatic Compounds

Author

Mao Peng, Vasanth R. Singan, Igor V. Grigoriev, Megan Pawlowski, Vivian Ng, Anna Lipzen, Miia R. Mäkelä, Mei Wang, Joanna E. Kowalczyk, Department of Microbiology, and Helsinki Institute of Sustainability Science (HELSUS)

Subjects

0301 basic medicine, ETHANOL FERMENTATION, Pectin, Medical Biotechnology, Biomass, 02 engineering and technology, WOOD, Dichomitus squalens, SACCHAROMYCES-CEREVISIAE, LIGNIN DEGRADATION, chemistry.chemical_compound, lignocellulose, Lignin, MOLECULAR CHARACTERIZATION, Organism, 1183 Plant biology, microbiology, virology, Original Research, 2. Zero hunger, chemistry.chemical_classification, Chemistry, Bioengineering and Biotechnology, 021001 nanoscience & nanotechnology, PHENOLIC-COMPOUNDS, Biochemistry, 0210 nano-technology, ENZYMES, Biotechnology, platform chemicals, food.ingredient, Histology, lcsh:Biotechnology, Biomedical Engineering, lignin, Bioengineering, 03 medical and health sciences, KRAFT LIGNIN, food, VANILLATE HYDROXYLASE, lcsh:TP248.13-248.65, Oxidative enzyme, aromatic compounds, CYTOCHROME-P450, Metabolism, 15. Life on land, Xylan, 030104 developmental biology, Enzyme, gene expression, Other Biological Sciences, transcriptome, basidiomycete

Abstract

Lignocellulosic plant biomass is an important feedstock for bio-based economy. In particular, it is an abundant renewable source of aromatic compounds, which are present as part of lignin, as side-groups of xylan and pectin, and in other forms, such as tannins. As filamentous fungi are the main organisms that modify and degrade lignocellulose, they have developed a versatile metabolism to convert the aromatic compounds that are toxic at relatively low concentrations to less toxic ones. During this process, fungi form metabolites some of which represent high-value platform chemicals or important chemical building blocks, such as benzoic, vanillic, and protocatechuic acid. Especially basidiomycete white-rot fungi with unique ability to degrade the recalcitrant lignin polymer are expected to perform highly efficient enzymatic conversions of aromatic compounds, thus having huge potential for biotechnological exploitation. However, the aromatic metabolism of basidiomycete fungi is poorly studied and knowledge on them is based on the combined results of studies in variety of species, leaving the overall picture in each organism unclear. Dichomitus squalens is an efficiently wood-degrading white-rot basidiomycete that produces a diverse set of extracellular enzymes targeted for lignocellulose degradation, including oxidative enzymes that act on lignin. Our recent study showed that several intra- and extracellular aromatic compounds were produced when D. squalens was cultivated on spruce wood, indicating also versatile aromatic metabolic abilities for this species. In order to provide the first molecular level systematic insight into the conversion of plant biomass derived aromatic compounds by basidiomycete fungi, we analyzed the transcriptomes of D. squalens when grown with 10 different lignocellulose-related aromatic monomers. Significant differences for example with respect to the expression of lignocellulose degradation related genes, but also putative genes encoding transporters and catabolic pathway genes were observed between the cultivations supplemented with the different aromatic compounds. The results demonstrate that the transcriptional response of D. squalens is highly dependent on the specific aromatic compounds present suggesting that instead of a common regulatory system, fine-tuned regulation is needed for aromatic metabolism.

Published

2019

28. Inhibition of basidiospore germination by western redcedar heartwood extractives

Author

Rod Stirling, Adnan Uzunovic, and Stacey Kus

Subjects

040101 forestry, 0106 biological sciences, biology, Basidiospore, Gloeophyllum sepiarium, Sowing, 04 agricultural and veterinary sciences, biology.organism_classification, 01 natural sciences, Microbiology, Biomaterials, Dichomitus squalens, chemistry.chemical_compound, Plicatic acid, chemistry, Fomitopsis palustris, Germination, 010608 biotechnology, Botany, 0401 agriculture, forestry, and fisheries, Waste Management and Disposal, Mycelium

Abstract

Understanding the relationship between extractives and decay resistance in western red cedar (WRC) is essential for breeding durable planting stock. To date, most such work has focused on resistance to mycelial attack. However, this is potentially misleading since WRC is largely used in above-ground applications where basidiospore germination is the primary way in which the wood is initially colonized. Efficacy against basidiospores is likely a critical factor affecting wood’s decay resistance in above-ground applications. In this study the effect of selected extractives on basidiospore germination was evaluated. Partially-extracted WRC veneer samples, and spruce samples treated with beta-thujaplicin, thujic acid, or plicatic acid were used. Beta-thujaplicin and thujic acid were associated with significantly reduced rates of Gloeophyllum sepiarium , Fomitopsis palustris, and Dichomitus squalens basidiospore germination. Plicatic acid was not associated with any effect on basidiospore germination. Planting stock that generates heartwood with high concentrations of thujaplicins and thujic acid should be selected to yield wood that will be resistant to basidiospore germination.

Published

2016

29. Dichomitus squalens: The role of a white-rot fungus and its offspring in wood colonization and degradation

Author

Casado López, S. and Casado López, S.

Abstract

Plant biomass is one of the main renewable materials on Earth. It is used as substrate by industry to convert it into useful products, such as biofuel and chemicals. Natural forests, forest plantations and agroforestry plantations are recognized as an important reservoir of renewable carbon. Fungi play an important role in plant biomass degradation, also in forest ecosystems. Therefore, improving the production of fungal plant biomass converting enzymes is of great interest to biotechnology. These enzymes have been mainly studied in saprobic ascomycetes, and much less extensively in basidiomycetes. This is largely caused by the better manageability of ascomycetes in industrial fermentations and the availability of transformation systems for many ascomycetes, while these aspects are still a major challenge in basidiomycetes. Despite this, basidiomycetes form a promising source of novel enzymes with putatively different biochemical properties than ascomycete enzymes. Plant biomass consists mainly of polysaccharides, lignin and proteins, forming a complex network of polymers interacting with each other. White-rot basidiomycete fungi are well known for their unique ability to decompose all wood polymers, including the recalcitrant lignin, by secreting hydrolytic and oxidative enzymes. This ability has raised significant interest in white-rot fungi, since lignin removal from plant biomass remains a challenge in industry and academia. In this thesis, I focused on the white-rot fungus Dichomitus squalens as a basidiomycete model for plant biomass degradation, and extend those insights to other white-rot fungi. In the last years, the ability of this species to produce industrially relevant enzymes has been demonstrated, its genome encodes a broad range of enzymes for polysaccharide and lignin degradation, and its ligninolytic potential has been validated in both submerged and solid state cultures. This thesis focused on the genetical and physiological variation amo

Published

2018

30. Selective Cleavage of Lignin beta-O-4 Aryl Ether Bond by beta-Etherase of the White-Rot Fungus Dichomitus squalens

Author

Marinovic, Mila, Nousiainen, Paula, Dilokpimol, Adiphol, Kontro, Jussi, Moore, Robin, Sipila, Jussi, de Vries, Ronald P., Makela, Miia R., Hilden, Kristiina, Marinovic, Mila, Nousiainen, Paula, Dilokpimol, Adiphol, Kontro, Jussi, Moore, Robin, Sipila, Jussi, de Vries, Ronald P., Makela, Miia R., and Hilden, Kristiina

Published

2018

31. Corrigendum to 'Mixtures of aromatic compounds induce ligninolytic gene expression in the wood-rotting fungus Dichomitus squalens' [J. Biotechnol. 380 (2020) 35–39]

Author

Vivian Ng, Mei Wang, Anna Lipzen, Miia R. Mäkelä, Paul Daly, Vasanth R. Singan, Ronald P. de Vries, Mao Peng, Igor V. Grigoriev, and Sara Casado López

Subjects

0106 biological sciences, 0301 basic medicine, biology, Chemistry, Bioengineering, General Medicine, Fungus, biology.organism_classification, 01 natural sciences, Applied Microbiology and Biotechnology, Dichomitus squalens, 03 medical and health sciences, 030104 developmental biology, 010608 biotechnology, Botany, Gene expression, Biotechnology

Abstract

Author(s): Daly, Paul; Peng, Mao; Casado Lopez, Sara; Lipzen, Anna; Ng, Vivian; Singan, Vasanth R; Wang, Mei; Grigoriev, Igor V; de Vries, Ronald P; Makela, Miia R | Abstract: In Section 3.1 of the Results and Discussion, it should have stated 100 μM and not 50 μM for the concentration of the aromatic compounds. The correct concentration was stated in the Materials and Methods and the error only occurred in the Results and Discussion section. The authors would like to apologize for any inconvenience caused.

Published

2020

32. Dichomitus squalens: The role of a white-rot fungus and its offspring in wood colonization and degradation

Subjects

White-rot fungi, dikaryon, fungi, food and beverages, Dichomitus squalens, monokaryon, complex mixtures, plant biomass, CAZymes, wood

Abstract

Plant biomass is one of the main renewable materials on Earth. It is used as substrate by industry to convert it into useful products, such as biofuel and chemicals. Natural forests, forest plantations and agroforestry plantations are recognized as an important reservoir of renewable carbon. Fungi play an important role in plant biomass degradation, also in forest ecosystems. Therefore, improving the production of fungal plant biomass converting enzymes is of great interest to biotechnology. These enzymes have been mainly studied in saprobic ascomycetes, and much less extensively in basidiomycetes. This is largely caused by the better manageability of ascomycetes in industrial fermentations and the availability of transformation systems for many ascomycetes, while these aspects are still a major challenge in basidiomycetes. Despite this, basidiomycetes form a promising source of novel enzymes with putatively different biochemical properties than ascomycete enzymes. Plant biomass consists mainly of polysaccharides, lignin and proteins, forming a complex network of polymers interacting with each other. White-rot basidiomycete fungi are well known for their unique ability to decompose all wood polymers, including the recalcitrant lignin, by secreting hydrolytic and oxidative enzymes. This ability has raised significant interest in white-rot fungi, since lignin removal from plant biomass remains a challenge in industry and academia. In this thesis, I focused on the white-rot fungus Dichomitus squalens as a basidiomycete model for plant biomass degradation, and extend those insights to other white-rot fungi. In the last years, the ability of this species to produce industrially relevant enzymes has been demonstrated, its genome encodes a broad range of enzymes for polysaccharide and lignin degradation, and its ligninolytic potential has been validated in both submerged and solid state cultures. This thesis focused on the genetical and physiological variation among different D. squalens strains in relation to plant biomass utilization and various approaches of the wood degradation process. For this, state of the art molecular and omics technologies were combined with amplified fragment length polymorphisms (AFLP), phylogeny, microscopy and enzyme activities, to demonstrate differences in the plant biomass degradation approach between mono- and dikaryotic strains, as well as between geographically different lineages of the fungus. It also revealed a partial adaptation of D. squalens to different wood types (hard- and softwood). In addition, I elucidated the response of D. squalens to the presence of mono- and oligomers derived from plant biomass and identified two inducers of CAZyme gene expression related to lignocellulose degradation. While these inducers were functional in both mono- and dikaryotic strains, their regulatory patterns showed differences between these strains.

Published

2018

33. Selective Cleavage of Lignin β- O-4 Aryl Ether Bond by β-Etherase of the White-Rot Fungus Dichomitus squalens

Author

Marinović, Mila, Nousiainen, Paula, Dilokpimol, Adiphol, Kontro, Jussi, Moore, Robin, Sipilä, Jussi, De Vries, Ronald P., Mäkelä, Miia R., Hildén, Kristiina, Sub Molecular Plant Physiology, and Molecular Plant Physiology

Subjects

Glutathione- S-transferase, White-rot fungi, β-Etherase, β- O-4 linkage, Dichomitus squalens, Lignin

Abstract

Production of value-added compounds from a renewable aromatic polymer, lignin, has proven to be challenging. Chemical procedures, involving harsh reaction conditions, are costly and often result in nonselective degradation of lignin linkages. Therefore, enzymatic catalysis with selective cleavage of lignin bonds provides a sustainable option for lignin valorization. In this study, we describe the first functionally characterized fungal intracellular β-etherase from the wood-degrading white-rot basidiomycete Dichomitus squalens. This enzyme, Ds-GST1, from the glutathione-S-transferase superfamily selectively cleaved the β-O-4 aryl ether bond of a dimeric lignin model compound in a glutathione-dependent reaction. Ds-GST1 also demonstrated activity on polymeric synthetic lignin fractions, shown by a decrease in molecular weight distribution of the laccase-oxidized guaiacyl dehydrogenation polymer. In addition to a possible role of Ds-GST1 in intracellular catabolism of lignin-derived aromatic compounds, the ...

Published

2018

34. Genetic transformation of the white-rot fungus Dichomitus squalens using a new commercial protoplasting cocktail

Author

Sara Casado López, Ad Wiebenga, Miia R. Mäkelä, Ronald P. de Vries, Kristiina Hildén, Gillian G. Slaghek, Paul Daly, Westerdijk Fungal Biodiversity Institute, and Westerdijk Fungal Biodiversity Institute - Fungal Physiology

Subjects

0301 basic medicine, Microbiology (medical), 030106 microbiology, Gene Expression, Biology, Dichomitus squalens, Microbiology, Hygromycin, Polyporaceae, Genetic transformation, 03 medical and health sciences, chemistry.chemical_compound, Transformation, Genetic, Drug Resistance, Fungal, Tubulin, Humans, Promoter Regions, Genetic, Molecular Biology, Gene, Mycelium, Monokaryon, Southern blot, Kanamycin Kinase, Protoplasts, fungi, Gene Transfer Techniques, food and beverages, biochemical phenomena, metabolism, and nutrition, Protoplast, equipment and supplies, Phosphotransferases (Alcohol Group Acceptor), Transformation (genetics), Biochemistry, chemistry, bacteria, Osmotic stabilisers, DNA, Transformation efficiency

Abstract

D. squalens, a white-rot fungus that efficiently degrades lignocellulose in nature, can be used in various biotechnological applications and has several strains with sequenced and annotated genomes. Here we present a method for the transformation of this basidiomycete fungus, using a recently introduced commercial ascomycete protoplasting enzyme cocktail, Protoplast F. In protoplasting of D. squalens mycelia, Protoplast F outperformed two other cocktails while releasing similar amounts of protoplasts to a third cocktail. The protoplasts released using Protoplast F had a regeneration rate of 12.5% (±6 SE). Using Protoplast F, the D. squalens monokaryon CBS464.89 was conferred with resistance to the antibiotics hygromycin and G418 via polyethylene glycol mediated protoplast transformation with resistance cassettes expressing the hygromycin phosphotransferase (hph) and neomycin phosphotransferase (nptII) genes, respectively. The hph gene was expressed in D. squalens using heterologous promoters from genes encoding β-tubulin or glyceraldehyde 3-phosphate dehydrogenase. A Southern blot confirmed integration of a resistance cassette into the D. squalens genome. An average of six transformants (±2 SE) were obtained when at least several million protoplasts were used (a transformation efficiency of 0.8 (±0.3 SE) transformants per μg DNA). Transformation of D. squalens demonstrates the suitability of the Protoplast F cocktail for basidiomycete transformation and furthermore can facilitate understanding of basidiomycete gene function and development of improved strains for biotechnological applications.

Published

2017

35. Complementary substrate‐selectivity of metabolic adaptive convergence in the lignocellulolytic performance by <scp> D </scp> ichomitus squalens

Author

Jin Seop Bak

Subjects

Plant Stems, Mechanism (biology), Hydrolysis, Cellular homeostasis, Oryza, Bioengineering, Target analysis, Rice straw, Computational biology, Substrate (biology), Biology, Lignin, Applied Microbiology and Biotechnology, Biochemistry, Polyporaceae, Dichomitus squalens, Metabolic pathway, Biotransformation, Metabolic Networks and Pathways, Research Articles, Organism, Biotechnology

Abstract

The lignocellulolytic platform of the wood-decaying organism Dichomitus squalens is important for production of biodegradable elements; however, the system has not yet been fully characterized. In this study, using statistical target optimization, we analysed substrate selectivity based on a variety of D. squalens metabolic pathways using combined omics tools. As compared with the alkali-lignin (AL) programme, the rice straw (RS) programme has the advantage of multilayered signalling to regulate cellulolytic-related genes or to connect their pathways. The spontaneous instability of the AL programme was accelerated by harsh starvation as compared with that of the RS programme. Therefore, the AL programme converged on cellular maintenance much easier and more rapidly. However, regardless of external substrate/concentration type, the compensatory pattern of the major targets (especially peroxidases and growth regulators) was similar, functioning to maintain cellular homeostasis. Interestingly, ligninolytic-mediated targets under non-kaleidoscopic conditions were induced by a substrate-input-control, and especially this mechanism had an important effect on the early stages of the biodegradation process. This optimized target analysis could be used to understand lignocellulolytic network and to improve downstream efficiency.

Published

2014

36. Biodegradation Kinetics of Phenol, 2,4,6-Trichlorophenol and Pentachlorophenol with ligninolytic enzymes from Dichomitus Squalens

Author

Zupan, Nastja, Babic, Janja, Pavko, Aleksander, Zupan, Nastja, Babic, Janja, and Pavko, Aleksander

Abstract

Biodegradation of phenol, 2,4,6-trichlorophenol and pentachlorophenol was investigated using Dichomitus squalens cultivation media filtrates with initial laccase and manganese peroxidase activities of 1000 U L-1 and 300 U L-1, respectively. Decomposition of all three biocides was studied at T = 28 °C, pH = 4.5 and initial concentrations around 6 mg L-1 and the kinetics evaluated on the basis of the time course of the biocide concentration data. Integral analysis revealed 1st order reaction for all three pollutants and the corresponding reaction rate constants and initial concentrations for phenol, 2,4,6-TCP and PCP were estimated from linearized experimental data. The rate equations obtained allow estimation of the times necessary for a particular biocide conversion. The toxicity of reactants and products to the bacterium Vibrio fischeri before and after 48-hours degradation showed that the products were less toxic than the reactants in all three cases. The initial solutions of the three toxic substances caused 54 - 62 % inhibition of the bacterium Vibrio fischeri, while after 48 hours of degradation, 57 % reduction in the toxicity of phenol, 50 % reduction of 2,4,6-TCP and 29 % reduction of PCP was achieved.Â

Published

2016

37. Heterologous production and characterization of mannan acting enzymes from the white rot fungus Dichomitus squalens

Author

Helsingin yliopisto, Maatalous-metsätieteellinen tiedekunta, Elintarvike- ja ympäristötieteiden laitos, University of Helsinki, Faculty of Agriculture and Forestry, Department of Food and Environmental Sciences, Helsingfors universitet, Agrikultur- och forstvetenskapliga fakulteten, Institutionen för livsmedels- och miljövetenskaper, Zhang, Angel, Helsingin yliopisto, Maatalous-metsätieteellinen tiedekunta, Elintarvike- ja ympäristötieteiden laitos, University of Helsinki, Faculty of Agriculture and Forestry, Department of Food and Environmental Sciences, Helsingfors universitet, Agrikultur- och forstvetenskapliga fakulteten, Institutionen för livsmedels- och miljövetenskaper, and Zhang, Angel

Abstract

The enzymatic degradation of plant cell walls has being extensively explored during the past decade chiefly due to the current and potential uses of plant biomass found in several industries. In this process, the effective removal of the hemicellulosic portion is of paramount importance. For this purpose, hemicellulases have been intensively studied and produced from bacterial and fungal sources. Within this group of enzymes, mannanases, which are mostly used during the processing of softwood, have been found in several industrial applications. Currently, white rot basidiomycetes have gained increasing attention due to their ability to fully decompose wood. One of these fungi, Dichomitus squalens, has been regarded as an effective wood degrader; nonetheless, its enzymatic arsenal and catalytic potential have only recently been explored. In the present study, six mannan acting enzymes were selected from the genome of D. squalens and heterologously produced using the methylotrophic yeast Pichia pastoris. Four of these enzymes, consisting of two β-1,4-endomannanases, one β-1,4-mannosidase and one α-galactosidase, were successfully produced. The biochemical characterization of the concentrated enzymes using synthetic p-nitrophenyl substrates corresponding to their predicted activities showed optimal pH ranging from 3 to 5 and optimal temperatures ranging from 50 to 60 °C. In addition, three of the enzymes, namely MAN1, MND1 and GAL2, showed high thermostability retaining the majority of their enzyme activities after an incubation of 60 minutes at 60 °C. In contrast, MAN2 lost all of its activity after an incubation of 30 minutes at 60 °C. Furthermore, MAN1 and GAL2 showed optimal enzyme activities of 1922.2 (± 26.6) and 903.7 (± 7.4) U/mL respectively, with specific activities of 11.1 (± 1.0) and 27.9 (± 0.5) U/mg respectively. The four enzymes had a molecular mass ranging from 47 to 110 kDa, without showing evidence that any of them formed dimers or more complex struct

Published

2016

38. Novel Sesquiterpenes from the Mycelial Cultures of Dichomitus squalens

Author

Xin-Ya Xu, Xiaoyi Wei, Haihui Xie, and Yang Dan

Subjects

Inorganic Chemistry, Dichomitus squalens, Ledol, Chemistry, Stereochemistry, Organic Chemistry, Drug Discovery, Physical and Theoretical Chemistry, Biochemistry, Catalysis, Mycelium, Dichomitol

Abstract

Four novel sesquiterpenes, 5-hydroxydichomitol (1), dichomilludol (2), 3β,13-dihydroxyledol (3), and 2β,3β,13-trihydroxyledol (4), were isolated along with 2β,13-dihydroxyledol (5) from the AcOEt-soluble fraction of the mycelial solid cultures of Dichomitus squalens. Their structures were determined on the basis of spectroscopic analyses. The previously assigned structure of dichomitol was revised.

Published

2011

39. Alkyl Glycosides from Mycelial Cultures of Dichomitus squalens

Author

Xiao-Yi Wei, Xin-Ya Xu, Yang Dan, and Hai-Hui Xie

Subjects

chemistry.chemical_classification, Dichomitus squalens, chemistry, Glycoside, Organic chemistry, General Medicine, Mycelium, Alkyl

Published

2010

40. Total synthesis of the putative structure of the novel triquinane based sesquiterpenoid natural product dichomitol

Author

Goverdhan Mehta and Kotapalli Pallavi

Subjects

Dichomitus squalens, chemistry.chemical_compound, Natural product, chemistry, Stereochemistry, Product (mathematics), Organic Chemistry, Drug Discovery, Total synthesis, Organic chemistry, Fermentation broth, Biochemistry, Dichomitol

Abstract

A total synthesis of the recently reported triquinane natural product dichomitol, isolated from the fermentation broth of Dichomitus squalens, has been accomplished from the commercially available 1,5-cyclooctadiene through a series of unambiguous synthetic steps. A complete mismatch between the spectral characteristics of the synthetic product and that of the natural product warrants a revision of the structure of dichomitol.

Published

2006

41. Solid-State 13C Nuclear Magnetic Resonance Studies of Wood Decay. I. White Rot Decay of Colorado Blue Spruce

Author

Mark F. Davis, Gary E. Maciel, and Herbert R. Schroeder

Subjects

Biomaterials, Dichomitus squalens, Softwood, Coriolus versicolor, Chemistry, Botany, White rot, Solid-state

Published

1994

42. Laccase production by some white rot fungi under different nutritional conditions

Author

Paramjit Kaur Gill and Daljit Singh Arora

Subjects

Phlebia, Laccase, Environmental Engineering, biology, Renewable Energy, Sustainability and the Environment, Bioengineering, General Medicine, Biodegradation, biology.organism_classification, Dichomitus squalens, chemistry.chemical_compound, chemistry, Botany, White rot, Lignin, Waste Management and Disposal, Trametes versicolor

Abstract

The role of laccase in ligninolysis has been disputed but it still seems to have an important place in the reactions. Trametes versicolor has been the organism of choice for laccase production. The present paper reports laccase production by Phlebia fascicularia , P. floridensis and Dichomitus squalens . Enzyme production in mineral salts broth, malt extract broth and in the presence of various supplements showed that P. floridensis and D. squalens were better laccase producers than T. versicolor . Different lignin preparations and natural agricultural residues gave the best enzyme production, except with T. versicolor . The studies underline the need to explore more organisms to fully exploit the potential of laccase-producing fungi.

Published

2000

43. Inoculum carrier and contaminant bioavailability affect fungal degradation performances of PAH-contaminated solid matrices from a wood preservation plant

Author

Maurizio Petruccioli, Monika Čvančarová, Federico Federici, Stefano Covino, Kateřina Svobodová, Zdena Křesinová, Emanuela Galli, Tomáš Cajthaml, and Alessandro D’Annibale

Subjects

Chrysene, Environmental Engineering, Coprinus comatus Pleurotus ostreatus, Health, Toxicology and Mutagenesis, Industrial Waste, Dichomitus squalens, Pleurotus, Coprinus, Polyporaceae, chemistry.chemical_compound, Ergosterol, polycyclic compounds, Organic chemistry, Environmental Chemistry, Soil Pollutants, Polycyclic Aromatic Hydrocarbons, Microbial inoculant, Fluoranthene, biology, Chemistry (all), Public Health, Environmental and Occupational Health, Fungi, Biodegradation, Coprinus comatus, Pleurotus ostreatus, Polycyclic aromatic hydrocarbons, White-rot fungi, Hordeum, General Medicine, General Chemistry, Phenanthrene, biology.organism_classification, Pollution, Wood, Bioavailability, Biodegradation, Environmental, chemistry, Environmental chemistry, Pyrene

Abstract

The objective of the study was to investigate the impact of chopped wheat straw (CWS), ground corn cobs (GCC) and commercial pellets (CP), as inoculum carriers, on both growth and polycyclic aromatic hydrocarbons (PAH) degradation performances of Dichomitus squalens, Pleurotus ostreatus and Coprinus comatus. A historically-contaminated soil (HCS) and creosote-treated shavings (CTS) from the Sobeslav wood preservation plant, characterized by different relative abundances of the PAH bioavailable fractions, were used to assess the contaminated matrix effect and its interaction with both carrier and fungal strain. In HCS, best results were obtained with CP-immobilized P. ostreatus, which was able to deplete benzo[a]anthracene, chrysene, benzo[b]fluoranthene (BbF), benzo[k]fluoranthene (BkF) and benzo[a]pyrene (BaP) by 69.1%, 29.7%, 39.7%, 32.8% and 85.2%, respectively. Only few high-molecular mass PAHs such as BbF, BkF and BaP were degraded beyond their respective bioavailable fractions and this effect was confined to a limited number of inoculants. In CTS, only phenanthrene degradation exceeded its respective bioavailability from 1.42 to 1.86-fold. Regardless of both inoculum carrier and fungal species, degradation was positively and significantly (P

Published

2009

44. Total Synthesis of the Putative Structure of the Novel Triquinane-Based Sesquiterpenoid Natural Product Dichomitol

Author

Kotapalli Pallavi and Goverdhan Mehta

Subjects

Dichomitus squalens, Terpene, chemistry.chemical_compound, Natural product, chemistry, Product (mathematics), Total synthesis, Organic chemistry, General Medicine, Fermentation broth, Dichomitol

Abstract

A total synthesis of the recently reported triquinane natural product dichomitol, isolated from the fermentation broth of Dichomitus squalens, has been accomplished from the commercially available 1,5-cyclooctadiene through a series of unambiguous synthetic steps. A complete mismatch between the spectral characteristics of the synthetic product and that of the natural product warrants a revision of the structure of dichomitol.

Published

2007

45. Sesquiterpenes from the mycelial cultures of Dichomitus squalens

Author

Yicun Huang, Xiaoyi Wei, Yang Dan, Lidong Lin, Taihui Li, Zhongliang Huang, and Wanhui Ye

Subjects

Dichomitone, Nematoda, Pharmaceutical Science, Bursaphelenchus xylophilus, Sesquiterpene, Analytical Chemistry, Polyporaceae, chemistry.chemical_compound, Drug Discovery, Botany, Animals, Nuclear Magnetic Resonance, Biomolecular, Mycelium, Dichomitol, Pharmacology, biology, Molecular Structure, Antinematodal Agents, Organic Chemistry, biology.organism_classification, Terpenoid, Dichomitus squalens, Complementary and alternative medicine, chemistry, Molecular Medicine, Sesquiterpenes

Abstract

Three new sesquiterpenes including a rearranged hirsutane, dichomitol (1), an aromadendrane, 2beta,13-dihydroxyledol (2), and a 1,10-seco-2,3-seco-aromadendrane, dichomitone (3), were isolated from mycelial solid cultures of Dichomitus squalens. Their structures were elucidated by spectroscopic methods, and their nematicidal activities against Bursaphelenchus xylophilus were assessed.

Published

2004

46. Orange G and Remazol Brilliant Blue R decolorization by white rot fungi Dichomitus squalens, Ischnoderma resinosum and Pleurotus calyptratus

Author

Ladislav Homolka, František Nerud, Ivana Eichlerová, and Ludmila Lisá

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Anthraquinones, Remazol Brilliant Blue R, Microbiology, Water Purification, Agar plate, chemistry.chemical_compound, Ischnoderma resinosum, Manganese peroxidase, Environmental Chemistry, Orange G, Food science, Coloring Agents, Laccase, biology, Pleurotus calyptratus, Basidiomycota, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, biology.organism_classification, Pollution, Dichomitus squalens, Biodegradation, Environmental, chemistry, Azo Compounds, Water Pollutants, Chemical

Abstract

Thirty different white rot strains were screened for Orange G and Remazol Brilliant Blue R (RBBR) decolorization on agar plates. Three promising strains, Dichomitus squalens, Ischnoderma resinosum and Pleurotus calyptratus, selected on the basis of this screening, were used for decolorization study in liquid media. All three strains efficiently decolorized both Orange G and RBBR, but they differed in decolorization capacity depending on cultivation conditions and ligninolytic enzyme production. Two different decolorization patterns were found in these strains: Orange G decolorization in I. resinosum and P. calyptratus was caused mainly by laccase, while RBBR decolorization was effected by manganese peroxidase (MnP); in D. squalens laccase and MnP cooperated in the decolorization processes.

Published

2004

47. Fermentation of wheat straw xylan by the white-rot fungus Dichomitus squalens

Author

Xavier Rouau, Eduardo Agosin, Jean Marc Brillouet, ProdInra, Migration, Laboratoire de microbiologie, and Institut National de la Recherche Agronomique (INRA)

Subjects

BIOTECHNOLOGIE, biology, Chemistry, Immunology, General Medicine, Fungus, Biodegradation, Straw, biology.organism_classification, Applied Microbiology and Biotechnology, Microbiology, Dichomitus squalens, chemistry.chemical_compound, Hydrolysis, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Botany, Genetics, Hemicellulose, Fermentation, Food science, White rot fungus, [SDV.MP] Life Sciences [q-bio]/Microbiology and Parasitology, Molecular Biology

Abstract

The pattern of degradation of purified wheat straw xylan by submerged cultures of the ligninolytic white-rot fungus Dichomitus squalens has been determined. After a 22-h lag period, extracellular xylanase and protease activities developed during the first phase of secretion, the exponential growth phase. A rapid drop in the degree of polymerization of the soluble xylan was observed, corresponding to the release of xylobiose, followed by the release of xylotriose and xylose. After 70 h cultivation, soluble sugars were almost exhausted; laminarinase activities were secreted, followed by endoxylanases, β-xylosidases, CM-cellulases, and an α-L-arabinofuranosidase. All the endoxylanases exhibited β-xylosidase activity. No α-D-glucuronidase could be determined. Accumulation of an undegradable soluble polymer, highly substituted by glucuronic acid residues, was observed. Since no free arabinose or free glucuronic acid could be detected in the culture medium, it is suggested that a progressive increase of unsubstituted xylose units arises from preferential attack on the more highly substituted regions of the xylan backbone by endoxylanases.

Published

1987

48. Fermentation du xylane de paille de ble par l'agent de la pourriture blanche, le champignon Dichomitus squalens

Author

Agosin, E., Rouau, Xavier, Brillouet, J.P., Laboratoire de biochimie et technologie des glucides, and Institut National de la Recherche Agronomique (INRA)

Subjects

dichomitus squalens, [SDV.SA]Life Sciences [q-bio]/Agricultural sciences, Vegetal Biology, plante céréaliere, Microbiology and Parasitology, activité enzymatique, paille, graminée, enzyme fongique, champignon lignivore, Microbiologie et Parasitologie, xylane, CHAMPIGNON LIGNOLYTIQUE, Agricultural sciences, glucide, dégradation enzymatique, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, blé, identification, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, triticum aestivum, fermentation, Biologie végétale, Sciences agricoles, basidiomycete

Abstract

illus. 32 ref.

Published

1987

49. Purification and properties of endoglucanases from Dichomitus squalens

Author

Xavier Rouau and Marie-José Foglietti

Subjects

Dichomitus squalens, Biochemistry, Chemistry

Published

1985

50. Lignin Distribution in Cell Walls of Birch Wood Decayed by White Rot Basidiomycetes

Author

R. A. Blanchette, L. Otjen, and M. C. Carlson

Subjects

Birch wood, biology, Coriolus versicolor, Heterobasidion annosum, Plant Science, biology.organism_classification, Dichomitus squalens, Cell wall, chemistry.chemical_compound, chemistry, Botany, White rot, Lignin, Dry rot, Agronomy and Crop Science

Published

1987